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Quantum metrology with photoelectrons.

"Version: 20180401"--Title page verso."A Morgan & Claypool publication as part of IOP Concise Physics"--Title page verso.Includes bibliographical references.part III. Developments, methodologies and measurements -- 8. Developing quantum metrology with photoelectrons -- 8.1. Historical development : complete photoionization experiments -- 8.2. Experimental and analysis methodologies9. State-resolved frequency-domain measurements -- 9.1. Rotationally-resolved photoelectron imaging -- 9.2. Bootstrapping complexity : from atomic to molecular scattering -- 9.3. Photoelectron angular interferograms and determination of the dipole matrix elements -- 9.4. Uniqueness : mapping the [chi]2 hyperspace and verification -- 9.5. Pump-probe polarization geometry dependence and tomographic imaging10. Time-domain measurements with intra-pulse dynamics -- 10.1. Photoelectron imaging measurements from potassium -- 10.2. Photoelectron image simulation and parameter reconstruction -- 10.3. Photoelectron angular interferograms and determination of the dipole matrix elements -- 10.4. Mapping [chi]2 : fit statistics and sensitivity -- 10.5. Comparison with tomographic data11. Time-domain measurements with rotational wavepackets : bootstrapping protocol -- 11.1. Test case : butadiene model -- 11.2. Nitrogen aligned-frame photoelectron imaging -- 11.3. Bootstrapping protocol -- 11.4. Photoionization matrix elements -- 11.5. Molecular frame reconstructions -- 11.6. Bootstrap protocol summary and outlookpart IV. Generalisations and future directions -- 12. Advances -- 12.1. Information content revisited -- 12.2. Multiplexing and control -- 12.3. Generalised bootstrapping13. Future directions and outlook -- 13.1. Bootstrapping to quantitative quantum dynamics -- 13.2. Further directions for quantum metrologies based on photoelectron interferograms -- 13.3. Summary and outlook.Since the turn of the century, the increasing availability of photoelectron imaging experiments, along with the increasing sophistication of experimental techniques, and the availability of computational resources for analysis and numerics, has allowed for significant developments in such photoelectron metrology. Quantum Metrology with Photoelectrons, Volume 2: Applications and advances discusses the fundamental concepts along with recent and emerging applications. Volume 2 explores the applications and development of quantum metrology schemes based on photoelectron measurements. The author begins with a brief historical background on 'complete' photoionization experiments, followed by the details of state reconstruction methodologies from experimental measurements. Three specific applications of quantum metrology schemes are discussed in detail. In addition, the book provides advances, future directions, and an outlook including (ongoing) work to generalise these schemes and extend them to dynamical many-body systems. Volume 2 will be of interest to readers wishing to see the (sometimes messy) details of state reconstruction from photoelectron measurements as well as explore the future prospects for this class of metrology.Also available in print.Mode of access: World Wide Web.System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.Paul Hockett earned his PhD in 2008 from the University of Nottingham, UK and joined the National Research Council of Canada in 2009. Paul's research interests cover a range of topics spanning the areas of AMO (atomic, molecular, and optical), quantum, and computational physics (and physical chemistry), with a particular focus on fundamental light-matter interactions, spectroscopy, and application to complex systems.Title from PDF title page (viewed on May 4, 2018).

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Publisher
: .,
Collation
1 online resource (various pagings) :illustrations (chiefly color).
Language
English
ISBN/ISSN
9781681746883
Classification
389.1
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Carrier Type
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Edition
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Subject(s)
SCIENCE / Physics / Quantum Theory.
Metrology.
Quantum measure theory.
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